KPI Degradation Detection

Early detection of network issues through automated OSS KPI monitoring across LTE, 5G NR, and legacy networks.

How it works: We monitor real-time KPI trends using OSS and advanced analytics to detect drops in accessibility, retainability, throughput, and user experience indicators before they escalate.

    Key Benefits:
  • Enable proactive troubleshooting before customer impact.
  • Reduce churn risk by detecting degradations earlier.
  • Support SLA compliance and operational excellence.
    Common Use Cases:
  • Early detection of degraded clusters or cells.
  • Monitoring new site stabilization post-launch.
  • Automatic alerts for high-priority degradations.
Did you know? Over 60% of critical network issues are first detectable through KPI degradation patterns before alarms are triggered.

Comprehensive Network Optimization

We deliver end-to-end mobile network optimization services, covering all technologies, layers, and domains — from radio access to QoS, mobility, and capacity — across LTE, 5G NR, and legacy networks.

How it works: Our optimization projects follow a structured methodology combining OSS KPI analysis, UE logs, drive tests, and field validations. We assess the entire network or specific regions, define action plans by domain (coverage, interference, handover, throughput, etc.), and implement changes in collaboration with engineering teams.

    Key Benefits:
  • Holistic performance improvement across all domains
  • Single point of accountability for large-scale optimization
  • Custom reports and dashboards for tracking progress
    Common Use Cases:
  • Nationwide or regional optimization campaigns
  • Multi-technology performance audits
  • SLA recovery and end-user satisfaction improvement
Did you know? Comprehensive optimization campaigns can increase accessibility and throughput KPIs by up to 15–20% network-wide when executed systematically.

Optimization Triage Services

Prioritize optimization actions with structured triage of underperforming sites in multi-technology mobile networks including 4G and 5G.

How it works: We apply rule-based triage logic to categorize site issues into accessibility, interference, handover or congestion domains, enabling smarter prioritization for engineering teams.

    Key Benefits:
  • Improve resolution time by focusing on high-impact issues.
  • Enable efficient resource allocation.
  • Reduce mean time to repair (MTTR) and network instability.
    Common Use Cases:
  • Daily triage of degraded sites in NOC or engineering workflow.
  • Campaign planning for cluster-wide optimizations.
  • Post-swap stabilization reviews.
Did you know? Triage-based prioritization reduces average troubleshooting time by 35% in large operator environments.

RF Shaping for Performance Enhancement

Reshape cell coverage using tilt, azimuth, and power adjustments to improve LTE and 5G coverage and reduce overlap.

How it works: We analyze coverage overlap, signal dominance, and handover areas to implement tilt and azimuth changes that reduce interference and enhance SINR across the network.

    Key Benefits:
  • Improve signal quality and user throughput.
  • Reduce handover failures and overshooting cells.
  • Maximize performance without adding hardware.
    Common Use Cases:
  • Interference mitigation in dense urban zones.
  • Rural coverage shaping with low investment.
  • KPI recovery in complaint-prone sectors.
Did you know? Optimizing tilt and azimuth has shown to improve SINR by up to 25% in suburban clusters without hardware changes.

Pre-Launch Optimization

Prepare clusters for seamless commercial launch for LTE/5G clusters prior to commercial activation.

How it works: We run pre-launch validations with limited traffic and drive test simulation to ensure handovers, reselection and performance are ready for commercial use.

    Key Benefits:
  • Avoid launch-day surprises.
  • Ensure site-to-site mobility integrity.
  • Accelerate acceptance testing.
    Common Use Cases:
  • Enterprise project go-live readiness.
  • Government/public sector rollouts.
  • Strategic cluster activations.
Did you know? Pre-launch optimization leads to a 3x smoother rollout experience, reducing early customer complaints dramatically.

Post-Launch Optimization

Stabilize new site performance through early tuning especially in LTE and 5G site integrations.

How it works: We validate and optimize new site parameters post-launch to ensure balanced load, healthy mobility, and KPI compliance under real traffic.

    Key Benefits:
  • Accelerate stabilization of new rollouts.
  • Avoid post-integration issues.
  • Improve KPIs within first 7 days of launch.
    Common Use Cases:
  • Cluster acceptance support.
  • Commercial launch readiness verification.
  • New layer integration tuning.
Did you know? Sites that receive tuning within 7 days post-launch show 2x faster KPI stabilization versus untuned deployments.

Initial Tuning (New Deployments)

Set up new sites or clusters for KPI compliance before launch for new LTE or 5G NR base station deployments.

How it works: We configure key mobility, load and power parameters pre-launch to ensure proper handover, coverage and neighbor relations from day one.

    Key Benefits:
  • Avoid instability post-integration.
  • Speed up initial optimization loop.
  • Align sites with cluster-level policies.
    Common Use Cases:
  • New LTE/5G site commissioning.
  • Enterprise site tuning before activation.
  • Private network deployment preparation.
Did you know? Initial tuning before site go-live can reduce first-month trouble tickets by over 50%.

VoLTE / VoNR Service Optimization

Maximize voice service reliability and quality across LTE and 5G for voice services over LTE (VoLTE) and 5G (VoNR).

How it works: We tune SRVCC parameters, call setup thresholds, and codec priorities to improve VoLTE and VoNR performance across different layers and mobility conditions.

    Key Benefits:
  • Improve call setup success rate and MOS.
  • Reduce call drops during mobility or fallback.
  • Optimize codec usage for quality and efficiency.
    Common Use Cases:
  • VoLTE tuning in dense urban clusters.
  • VoNR SRVCC testing and fallback tuning.
  • Post-swap validation of voice KPIs.
Did you know? VoLTE and VoNR tuning can increase call setup success rate by 20% in dense networks.

Traffic Load Balancing & Congestion Relief

Improve service in overloaded areas by redistributing traffic across available layers across LTE and 5G layers, carriers, and sectors.

How it works: We tune reselection and mobility thresholds, carrier priorities, and cell reselection parameters to balance traffic between 4G/5G layers, small cells, or sectors.

    Key Benefits:
  • Reduce congestion during peak hours.
  • Enhance user experience with better scheduling.
  • Improve capacity utilization across layers.
    Common Use Cases:
  • Congestion relief in stadiums or malls.
  • Layer rebalancing between LTE and 5G NR.
  • Hotspot control in dense city centers.
Did you know? Traffic balancing reduces peak-hour congestion complaints by up to 40% in urban macro networks.

Mobility Robustness Optimization (MRO)

Reduce call drops and handover failures with mobility tuning for VoLTE, VoNR, and traditional mobility scenarios in LTE and 5G networks.

How it works: We analyze handover success rates, ping-pongs, and late handovers to optimize thresholds, timers, and neighbor relations, improving user mobility experience.

    Key Benefits:
  • Reduce dropped calls and access failures.
  • Improve inter-site and intra-frequency mobility.
  • Enhance VoLTE and VoNR handover performance.
    Common Use Cases:
  • Reducing handover failures in highway scenarios.
  • Urban ping-pong control.
  • Post-launch tuning of new clusters.
Did you know? Mobility failures account for over 50% of dropped calls in highway and high-speed train scenarios.

QoS & QoE Validation

Validate network quality and user experience with technical and perceptual indicators across technologies such as LTE, 5G, and legacy systems.

How it works: We combine OSS KPIs, drive test data, and user-level logs to validate real-world experience across apps, services, and mobility scenarios.

    Key Benefits:
  • Align technical KPIs with actual user perception.
  • Improve customer satisfaction metrics.
  • Support regulatory or marketing reports.
    Common Use Cases:
  • Validation of optimization impact.
  • SLA verification in enterprise zones.
  • Benchmarking campaigns with user perspective.
Did you know? More than 70% of users perceive service degradation before KPIs reflect issues — highlighting the gap QoE validation bridges.

UE Trace-Based Optimization

Optimize using Layer 3 messaging, MDT, and UE logs without field tests to optimize 5G NR, LTE, and WCDMA without requiring drive tests.

How it works: We analyze events like call drops, RLFs, and reselections using MDT and L3 traces collected from the network, providing deep insights without requiring drive testing.

    Key Benefits:
  • Gain insight in areas hard to test physically.
  • Correlate issues to real user equipment behavior.
  • Lower OPEX through driveless diagnostics.
    Common Use Cases:
  • Indoor hotspot optimization.
  • Troubleshooting VIP complaint areas.
  • Remote analysis of low-traffic clusters.
Did you know? MDT and L3 trace analysis reduces field visit costs by 45% and enables optimization in hard-to-reach areas.

Frequency Plan & Interference Management

Minimize inter-cell interference and maximize spectral efficiency for frequency reuse in LTE, 5G NR, and even 3G deployments.

How it works: We analyze co-channel and adjacent interference, proposing frequency reuse and physical cell ID strategies that optimize performance and reduce collisions.

    Key Benefits:
  • Reduce interference across all layers.
  • Improve coverage and SINR consistency.
  • Support new carrier or band deployment.
    Common Use Cases:
  • LTE 1800/2100 interference mitigation.
  • 5G carrier addition planning.
  • Rural reuse optimization.
Did you know? Effective interference mitigation boosts spectral efficiency by up to 30% in reused-frequency LTE/5G grids.

Energy Efficiency Optimization

Lower power consumption with smart network strategies within 4G and 5G radio access networks (RAN).

How it works: We configure features like carrier shutdown, low-traffic deactivation, and timer-based resource saving — all while keeping user impact minimal.

    Key Benefits:
  • Reduce energy bills and environmental footprint.
  • Keep performance within KPI targets.
  • Align with sustainability goals.
    Common Use Cases:
  • Low-traffic time energy saving.
  • Eco-mode setup for rural sites.
  • Green KPI reports for corporate goals.
Did you know? Energy-saving features can reduce power consumption by 15–25% per site, aligning with green network initiatives.

Vendor Swap Optimization

Ensure network stability and performance during vendor transitions during 4G/5G vendor migrations or swaps.

How it works: We support the migration process with audits, parameter harmonization, and early post-swap tuning to reduce impact and accelerate acceptance.

    Key Benefits:
  • Smooth network transition across OEMs.
  • Minimize KPI drops during cutover.
  • Accelerate post-swap performance recovery.
    Common Use Cases:
  • Ericsson-to-Huawei swap tuning.
  • Cluster-wide migration audits.
  • New vendor acceptance verification.
Did you know? Post-swap tuning reduces acceptance delays by an average of 3 weeks in multi-cluster vendor transitions.